JP2011501008A - Wave power station - Google Patents

Abstract

This device is applied to power generation that obtains electrical energy from ocean waves. The wave power station comprises a generator with an energy receiving shaft with a predetermined number of energy receiving modules, which are connected together in series and fixed to a common platform, each energy receiving module being attached to the shaft (8). A toothed wheel gear (13) with an attached flywheel (10), the shaft and pulley (7) being fixed to the platform via a bearing body (6) and engaging the pawl stop (16). ) Is attached, the pawl is attached to the platform, the electromagnet (11) is coupled, and the pawl gear (13) engages the pawl gear (14) attached to the shaft (08). Comes with pawl (15). A pulley is wound around the pulley (07), and one end of the pulley is connected to an operating float (02) arranged in a protective chamber (01) facing the front of the wave via an n-fold pulley assembly (03). The other end is connected to a balanced weight (05).

Description

  The present invention relates to obtaining energy from ocean waves.

  A remarkably large number of devices are known for obtaining energy from ocean waves. All of them (with the exception) try to convert wave kinetic energy (Non-Patent Documents 1, 2, and 3). One of them is a device for obtaining energy from ocean waves, comprising a generator, which is fitted with an energy receiving shaft, which is equipped with an energy receiving module, The modules are connected to each other in series and arranged at a predetermined distance from each other and fixed to a common platform. Each energy receiving module has a flywheel, and the flywheel has a bearing body on the platform. It is attached to a shaft that is fixed via a pulley, and a pulley is connected to the shaft via a bearing, and the pawl is fitted with a pawl and the pawl is engaged with the gear of the pawl The gear is attached to the shaft, the rope is wound around the pulley, and one end of the rope is To Gufuroto, and the other end is connected to counterweights.

M. McCormik "OCEAN WAVECONVERSION", New York, 1981 Eng., PhD Stefka Kanturska "Theenergy of sea waves is transformed into electricity", "Marineworld" magazine, February 2004 "ECOWATT TECHNOLOGIES", www.b2b.bg

  A drawback of the devices known so far is that the energy obtained from the generator corresponds to the natural dynamics of ocean waves and is low in potential (without conversion) and not directly usable.

  The task for the efficient use of ocean wave energy is solved by the wave power station of the present invention, which comprises a generator, which is fitted with an energy receiving shaft, A predetermined number of energy receiving modules, which are successively connected to each other and arranged at a predetermined distance from each other and fixed to a common platform; each module has a flywheel The flywheel is attached to the shaft, the shaft is fixed to the platform via a bearing body, the pulley is connected to the shaft via the bearing, the pulley is attached with a pawl and a pawl The pawl is engaged with the gear of the ratchet wheel, and the gear is attached to the shaft of the module. The pulley is fitted with the gear of the pawl, the gear is engaged with the pawl, the pawl is attached to the platform and connected to the electromagnet, the pulley is wrapped with a rope, One end of the rope is connected to an operating float disposed in the protection chamber via an n-times polyspast, and the other end is connected to an equilibrium weight. The moment of the electromagnet is determined by a logical control unit, which evaluates the lowest water level in the protection chamber, the entrance of the protection chamber is widened and faces the front of the wave.

  The advantage of the present invention is that idea, which is the conventionally known method: the use of potential energy possessed by sea waves (raising the float with a weight equal to the weight of the water replaced by the float) This is the exact opposite of the method of: collecting energy in an environment (water) with a given density, holding the float in the highest position and releasing the float when the lowest water level is reached below. In the method of the present invention, kinetic energy is acquired in environments (air) having different densities. The energy acquired efficiently is more significant (several times) than with the use of previously known devices. In addition, the use of the pulley set surprisingly increases the kinetic energy available from the energy receiving shaft, allowing the use of a standard three-phase synchronous generator. The widening of the protective chamber entrance results in a relative increase in the water level relative to the highest wave.

  Exemplary devices according to the present invention are disclosed in the accompanying drawings.

FIG. 3 is a cross-sectional view of an energy receiving shaft along one of the energy receiving modules. FIG. 3 is a longitudinal cross-sectional view of an energy receiving shaft in the region of two adjacent energy receiving modules. FIG. 3 is a top view of two energy receiving modules.

An example of a device according to the invention A wave power generation station comprises a generator, the generator having an energy receiving module, which are connected together in series and arranged at a predetermined distance from one another. Each energy receiving module is equipped with a flywheel / 10 /, the flywheel is attached to a shaft / 8/8, and the shaft is fixed to the platform via a bearing body / 6 / The pulley / 7 / is connected to the shaft via a bearing, the pulley is fitted with a pawl / 15 /, and the pawl is engaged with the gear / 14 / of the pawl The gear is attached to the shaft of the module. The pulley / 07 / is fitted with the toothed wheel gear / 13 /, the gear is engaged with the pawl / 16 /, the pawl is attached to the platform, and the electromagnet / 11 / is connected. And the rope is wound around the pulley, and one end of the rope is connected to the operating float / 2 / disposed in the protection chamber / 01 / through the n times pulley set / 03 /, and the other end Is connected to the balanced weight / 05 /. The moment of the electromagnet / 11 / releasing the operating float / 02 / suspended in the air is determined by the logical control unit / 09 /, which evaluates the minimum water level in the protection chamber / 01 / The entrance is open and faces the front of the wave.

  The wave power station operates as follows: When the sea surface is quiet, the operating float of all modules is completely submerged. The ropes connected to them are stretched firmly as a result of the action of balancing weights. The system is balanced without moving. When waves occur, the water level in the first protection chamber rises. Along with this, operating float / 02 / will rise. Under the influence of the counterweight, the pulley / 07 / rotates and the rope is wound through the pulley set. The two claw gears / 13-16 and 14-15 / do not inhibit this movement. After reaching the maximum, the level begins to drop. The operating float / 02 / is about to come down but is blocked by the engaging pawl and the float remains suspended in the air. Then, the wave continues to reach the remaining module and the module works in the same way. After the water level in the protection chamber / 01 / of the first module reaches a minimum, an operating signal is sent from the logical control unit / 09 / to the electromagnet / 11 /. As a result, the pawl stop / 16 / is pulled out and maintained in that position for a predetermined time. Operating float / 02 / falls as a free fall body. From the pulley / 07 /, the rope is released through the pulley assembly and the pulley rotates. If the rotational speed of the pulley / 07 / is equal to the energy receiving shaft, the accumulated potential energy is transferred to the energy receiving shaft (generator) by engaging the pawl / 15 / with the gear / 14 / Is done. At the same time, the rope connected to the balance weight / 05 / is wound around the pulley / 07. When the operating float / 02 / sinks in the water, its speed and rope speed decrease, the rope is released from the pulley / 07 /, and the pawl / 15 / and the claw gear / 14 / engage. Is solved. The energy receiving shaft continues to rotate under the action of the energy accumulated in the flyhole / 10 /. At the same time, the water level in the protection chamber / 01 / of the next module reaches a minimum level, and its electromagnet / 11 / receives an activation signal from the logical control unit / 09 /. In this way, the generator acquires a continuous rotational torque.

The wave power station of the present invention is:
A. You can build on the coast and use wave energy,
B. It can be built in oil mining equipment,
C. It may be constructed in a suitable location, energy acquisition platform, floating fixed to the energy acquisition park.

Claims (4)

  Comprising a generator, the generator is fitted with an energy receiving shaft, the shaft comprising a number of energy receiving modules, which are connected together in series and fixed to a common platform; Each energy receiving module has a flywheel / 10 /, which is mounted on a shaft / 8 /, which is fixed to the platform via a bearing body / 6 /, and a pulley / 7 / bearing The pulley is fitted with a pawl / 15 / and the pawl engages with a gear / 14 / of the pawl, which is connected to the shaft of the module. A rope is wound around the pulley, one end of the rope is connected to the operating float, and the other end is connected to the counterweight. On / 07 / there is a toothwheel gear / 13 /, the gear is engaged with the pawl stop / 16 /, the pawl stop is fixed to the platform and the electromagnet is connected A characteristic wave power generation station.   2. The wave power station according to claim 1, wherein the operating float / 02 / is connected to a rope wound around the pulley / 07 / through an n-times pulley set / 03 /.   2. The wave power generation station according to claim 1, wherein a moment for operating the electromagnet / 11 / releasing the operating float / 02 / suspended in the air is determined by the logical control unit / 09 /.   2. A wave power station according to claim 1, characterized in that the operating float 02 / is arranged in the protective chamber 01 /, the entrance of the chamber being widened and facing the front of the wave.

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